R/pick.model.pairs.R

Defines functions edge.delta pick.model.pairs

Documented in pick.model.pairs

# Copyright (C) 2008-2012 Leo Lahti and Olli-Pekka Huovilainen Contact: Leo Lahti
# <leo.lahti@iki.fi> This program is free software; you can redistribute it
# and/or modify it under the terms of the GNU General Public License as published
# by the Free Software Foundation; either version 2, or (at your option) any
# later version.  This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
# or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
# more details.  Acknowledgements: This program is based on the AIVGA
# Agglomerative Independent Variable Group Analysis package (v. 1.0) Copyright
# (C) 2001-2007 Esa Alhoniemi, Antti Honkela, Krista Lagus, Jeremias Seppa, Harri
# Valpola, and Paul Wagner.


#' @title Pick model pairs
#' @description Mainly for internal use. Calculate joint model for each node pair
#' @param network network
#' @param network.nodes network.nodes
#' @param node.models node.models
#' @param datamatrix datamatrix
#' @param params parameters
#' @return \item{model.pairs}{joint models for each node pair}
#' \item{delta}{corresponding delta value for the cost function}
#' @author Maintainer: Leo Lahti \email{leo.lahti@@iki.fi}
#' @references See citation('netresponse')
#' @keywords internal
#' @examples #
pick.model.pairs <- function(network, network.nodes, node.models, datamatrix, params) {
    
    # Storage list for calculated models
    model.pairs <- vector(length = ncol(network), mode = "list")
    delta <- rep(NA, ncol(network))
    
    for (edge in seq_len(ncol(network))) {
        
        tmp <- edge.delta(edge, network = network, network.nodes = network.nodes, 
            datamatrix = datamatrix, params = params, node.models = node.models)
        
        model.pairs[[edge]] <- tmp[["model"]]
        delta[[edge]] <- tmp[["delt"]]
        
    }
    
    gc()
    
    list(model.pairs = model.pairs, delta = delta)
    
}



edge.delta <- function(edge, network, network.nodes, datamatrix, params, node.models) {
    
    if (params$verbose) {
        message(paste("Computing delta values for edge ", edge, "/", ncol(network), 
            "\n"))
    }
    a <- network[1, edge]
    b <- network[2, edge]
    vars <- network.nodes[c(a, b)]
    
    mat <- matrix(datamatrix[, vars], nrow(datamatrix))
    rownames(mat) <- rownames(datamatrix)
    colnames(mat) <- vars
    
    model.params <- mixture.model(x = mat, mixture.method = params$mixture.method, 
        max.responses = params$max.responses, implicit.noise = params$implicit.noise, 
        prior.alpha = params$prior.alpha, prior.alphaKsi = params$prior.alphaKsi, 
        prior.betaKsi = params$prior.betaKsi, vdp.threshold = params$vdp.threshold, 
        initial.responses = params$initial.responses, ite = params$ite, speeup = params$speedup, 
        bic.threshold = params$bic.threshold, pca.basis = params$pca.basis)
    
    # Compute COST-value for two independent subnets vs. joint model Negative free
    # energy (-cost) is (variational) lower bound for P(D|H) Use it as an
    # approximation for P(D|H) Cost for the indpendent and joint models -cost is sum
    # of two independent models (cost: appr. log-likelihoods)
    costind <- info.criterion(node.models[[a]]$Nparams + node.models[[b]]$Nparams, 
        params$Nlog, -(node.models[[a]]$free.energy + node.models[[b]]$free.energy), 
        criterion = params$information.criterion)
    costjoint <- info.criterion(model.params$Nparams, params$Nlog, -model.params$free.energy, 
        criterion = params$information.criterion)
    
    # NOTE: COST is additive so summing is ok change (increase) of the total COST /
    # cost
    delt <- as.numeric(costjoint - costind)
    
    # Store these only if it would improve the cost; otherwise never needed again
    if (-delt > params$merging.threshold) {
        mod.pair <- model.params
    } else {
        mod.pair <- 0
    }
    
    return(list(model = mod.pair, delt = delt))
}

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netresponse documentation built on Nov. 8, 2020, 5:04 p.m.